A 10 mH inductor, a 1 μF capacitor, and a variable resistor are connected in parallel in the circuit of (Figure 1). The resistor is adjusted so that the roots of the characteristic equation are -8000 +j6000 rad/s. The initial voltage on the capacitor is 10 V and the initial current in the inductor is 80 mA. Figure + Vo Io iR R{ V 1 of 1 > Find B₁ in the solution for v(t). Express your answer to three significant figures and include the appropriate units. B₁ = 10.0 V Submit ✓ Correct Part D Previous Answers Find B₂ in the solution for v(t). Express your answer to three significant figures and include the appropriate units. B₂= 640 Submit V Previous Answers Request Answer ?

The given circuit iswhereL=10 mH.C=1 μF.The initial voltage on the capacitor is V0=10 V.The initial…

Answered: A 10 mH inductor, a 1 μF capacitor, and a variable resistor are connected in parallel in the circuit of (Figure 1). The resistor is adjusted so that the roots…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN: 9780133923605

Author: Robert L. Boylestad

Publisher: PEARSON

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Question

A 10 mH inductor, a 1 μF capacitor, and a variable resistor are
connected in parallel in the circuit of (Figure 1). The resistor is adjusted
so that the roots of the characteristic equation are
-8000+j6000 rad/s. The initial voltage on the capacitor is 10 V
and the initial current in the inductor is 80 mA.
Figure
+
Io
iR
R{
+
V
1 of 1
Find B₁ in the solution for v(t).
Express your answer to three significant figures and include the appropriate units.
B₁ = 10.0 V
Submit
✓ Correct
Part D
Previous Answers
Find B₂ in the solution for v(t).
Express your answer to three significant figures and include the appropriate units.
B₂ = 640
Submit
μA
V
Previous Answers Request Answer

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Step 1: Summarize the data.

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Step 2: Determine the value of the resistor R.

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Step 3: C. Determine the value of B_1 in the expression of the voltage v(t).

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Step 4: D. Determine the value of the coefficient B_2 in the expression of the voltage v(t).

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